2012
DOI: 10.1071/wf10155
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Study of the jump fire produced by the interaction of two oblique fire fronts. Part 1. Analytical model and validation with no-slope laboratory experiments

Abstract: When two fires approach each other, convective and radiative heat transfer processes are greatly enhanced. The interaction between two linear fire fronts making an angle θoi between them is of particular interest as it produces a very rapid advance of their intersection point with intense radiation and convection activity in the space between the fire lines. This fire is designated here as a ‘jump fire’ for when the value of θoi is small, the intersection point of the fire lines can reach unusually high rate o… Show more

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Cited by 46 publications
(115 citation statements)
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“…An increasing perimeter length requires more human and technological resources to control the fire and can affect the response capacity of suppression crews, which can be rapidly overwhelmed [114]. ROS can reach values of about 333 m/min [115] or even 450 m/min [116] and is considered extreme when it is ≥ 50 m/min [117]. ROS can also have major impacts on the safety of the evacuation process.…”
Section: The Definition Of Extreme Wildfire Event As a Process And Anmentioning
confidence: 99%
“…An increasing perimeter length requires more human and technological resources to control the fire and can affect the response capacity of suppression crews, which can be rapidly overwhelmed [114]. ROS can reach values of about 333 m/min [115] or even 450 m/min [116] and is considered extreme when it is ≥ 50 m/min [117]. ROS can also have major impacts on the safety of the evacuation process.…”
Section: The Definition Of Extreme Wildfire Event As a Process And Anmentioning
confidence: 99%
“…Besides upslope fires, the V-shape fire front is also concerned with another fire phenomenon called "jump fire", which is a new concept proposed by Viegas [12]. A jump fire denotes the phenomenon that two fire fronts (generally with a small separation angle) spread and meet each other, making up of a V-shape fire topology, and then merge to produce very high rates of spread because of high concentration of energy.…”
Section: Introductionmentioning
confidence: 99%
“…A jump fire denotes the phenomenon that two fire fronts (generally with a small separation angle) spread and meet each other, making up of a V-shape fire topology, and then merge to produce very high rates of spread because of high concentration of energy. Viegas [12] pointed out that the importance of jump fire lies in two aspects. Firstly, in some fire accidents two spreading fire lines were observed to intersect and merge, which led to a jump fire.…”
Section: Introductionmentioning
confidence: 99%
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“…2), and consequently to very strong convection effects. A simple analytical model based on the accumulation of energy near D was proposed by Viegas et al [25] …”
Section: Jump Firesmentioning
confidence: 99%